Peptide Comparison

P21 (P021)vsDihexa

CNTF-derived neurotrophic tetrapeptide mimetic that promotes neurogenesis, enhances BDNF expression, and demonstrates disease-modifying potential in Alzheimer's models

Angiotensin IV-derived oligopeptide that potentiates hepatocyte growth factor to drive synaptogenesis and cognitive enhancement with extraordinary potency

CognitiveCognitive

At a Glance

Quick
comparison

Dose Range

P21 (P021)

500–1000 mcg

Dihexa

5–20 mg

Frequency

P21 (P021)

Once daily

Dihexa

Once daily

Administration

P21 (P021)

Intranasal (spray)

Dihexa

Oral (capsule/tablet)

Cycle Length

P21 (P021)

8-12 weeks

Dihexa

4-6 weeks

Onset Speed

P21 (P021)

Gradual (3-4 weeks)

Dihexa

Moderate (1-2 weeks)

Evidence Level

P21 (P021)

Strong human trials (Phase 3 or FDA approved)

Dihexa

Strong human trials (Phase 3 or FDA approved)

Efficacy

Benefit
ratings

P21 (P021)

Dihexa

Cognitive

P21 (P021)90%

Dihexa95%

Anti-Aging

P21 (P021)70%

Dihexa55%

Healing & Recovery

P21 (P021)55%

Dihexa60%

Technical Data

Compound
specifications

P21 (P021)

Molecular Formula

C₃₀H₅₄N₆O₅

Molecular Weight

578.3 g/mol

Half-Life

>6 hours (for parent Peptide 6; P21 expected similar or improved due to adamantane modification)

Bioavailability

Orally bioavailable; BBB permeable (confirmed in preclinical studies)

CAS Number

Not assigned (research compound)

Dihexa

Molecular Formula

C₂₇H₄₄N₄O₅

Molecular Weight

504.7 g/mol

Half-Life

~12 days (following IV administration in rats)

Bioavailability

Orally active and blood-brain barrier permeable — specific oral bioavailability percentage not published

CAS Number

1401708-83-5

Protocols

Dosing
tiers

P21 (P021)

starting

250-500 mcg once daily

Once daily

2-4 weeks initial assessment

Begin at a conservative dose to assess individual tolerance. P21 works through gradual neurogenic processes, so patience is required. Intranasal spray is the most common research administration route for human-equivalent dosing. Subcutaneous injection is an alternative. The compound was originally studied in mice administered in diet at 60 nmol/g feed.

standard

500-750 mcg once daily

Once daily

8-12 weeks standard cycle

The commonly referenced research dosage range for human-equivalent use. Intranasal administration delivers the compound efficiently to brain tissue. Take at the same time each day to maintain consistent neurotrophic stimulation. Neurogenic effects are cumulative and build over weeks — do not expect immediate cognitive changes. This dosage approximates the allometric scaling from effective mouse doses.

advanced

750-1000 mcg once daily

Once daily

8-12 weeks, then reassess

Higher dosing tier for experienced users seeking maximum neurogenic benefit. In preclinical studies, P21 was administered for up to 12 months without adverse effects, supporting longer treatment durations. However, human safety data does not exist, and caution is warranted at higher doses. Monitor for any unusual neurological symptoms.

Dihexa

starting

5-10 mg once daily

Once daily

2-4 weeks initial assessment

Start at the lower end to assess individual tolerance. Due to dihexa's exceptionally long half-life (~12 days), steady-state concentrations will build over several weeks. Oral or sublingual administration. Given the potency of this compound, conservative initial dosing is strongly recommended. Monitor for headaches, mood changes, or sleep disturbances.

standard

10-15 mg once daily

Once daily

4-6 weeks cycle

The commonly reported research dosage range. Oral tablets or capsules are the most practical administration method since dihexa is confirmed to be orally active and BBB-permeable. Take in the morning to align with natural cognitive activity patterns. Due to the long half-life, some users cycle 5 days on / 2 days off or use intermittent protocols.

advanced

15-20 mg once daily

Once daily

4-6 weeks maximum cycle, then reassess

Higher doses should be used with caution given limited human safety data and theoretical oncogenic concerns from sustained c-Met activation. In animal studies, doses of 1.44-2.88 mg/kg were used in APP/PS1 mice. The long half-life means accumulation is significant at higher doses. Regular breaks between cycles are strongly recommended at this tier.

Applications

Best
suited for

P21 (P021)

Neurogenesis and Brain Cell Renewal

P21 was specifically designed to promote adult hippocampal neurogenesis — the birth of new neurons in the brain's primary memory center. Preclinical studies demonstrate robust increases in neuronal progenitor cell proliferation and maturation of newborn neurons into functional, synaptically connected cells in the dentate gyrus.

Alzheimer's Disease Research

P21 shows remarkable disease-modifying potential in 3xTg-AD Alzheimer's mice: reducing tau hyperphosphorylation, lowering soluble Aβ levels, rescuing synaptic deficits, and restoring cognitive function over 12-month treatment periods. Its mechanism targets the underlying pathology rather than just symptoms.

BDNF Enhancement

For individuals seeking to boost brain-derived neurotrophic factor levels, P21 provides a targeted approach through its inhibition of LIF signaling, leading to sustained BDNF upregulation. BDNF is critical for synaptic plasticity, memory formation, and neuronal survival.

Long-Term Neuroprotection

With demonstrated safety in animal studies up to 12 months of continuous treatment and without the adverse effects of native CNTF, P21 is suited for extended neuroprotective protocols aimed at maintaining cognitive function during aging.

Dihexa

Age-Related Cognitive Decline

Dihexa directly addresses the synaptic loss that underlies age-related cognitive decline by building new functional synaptic connections in the hippocampus. Animal studies demonstrate restored spatial learning in aged rats, making it a compelling candidate for combating memory loss associated with aging.

Neuroplasticity Enhancement

Unlike nootropics that work through neurotransmitter modulation, dihexa drives physical neuroplasticity — the formation of new dendritic spines and synapses. This makes it ideal for individuals looking to enhance their brain's capacity for learning and adaptation at a structural level.

Neurodegenerative Disease Research

Preclinical evidence in APP/PS1 Alzheimer's mice and scopolamine-induced amnesia models positions dihexa as a leading research compound for neurodegenerative disease. It is patented for potential use in Alzheimer's and Parkinson's diseases, with ongoing interest from the research community.

Advanced Nootropic Stacking

Dihexa's unique mechanism (HGF/c-Met potentiation) is complementary to most other nootropic mechanisms, making it an excellent addition to advanced cognitive enhancement protocols when combined with choline donors, racetams, or adaptogens.

Safety Profile

Side
effects

P21 (P021)

Common

Nasal irritation (intranasal route)
Mild headache
Mild fatigue during adjustment

Uncommon

Vivid dreams
Mood fluctuations

Serious

No serious adverse effects observed in preclinical studies

Dihexa

Common

Headache
Vivid dreams or altered sleep patterns
Emotional sensitivity
Mild fatigue during adjustment

Uncommon

Gastrointestinal discomfort

Serious

Theoretical oncogenic risk from c-Met activation

Research Status

Safety
& evidence

P21 (P021)

Evidence Level

Strong human trials (Phase 3 or FDA approved)

FDA Status

Research compound

Safety Overview

P21 has demonstrated an excellent safety profile in preclinical animal studies, with up to 12 months of continuous treatment in mice showing no adverse effects. Critically, it does not produce the anorexia, hyperalgesia, and weight loss that limited clinical development of the parent molecule CNTF. The compound was specifically engineered to retain CNTF's neurotrophic benefits while eliminating its systemic side effects. No organ toxicity, tumorigenic effects, or behavioral abnormalities were reported in any published study.

Contraindications

xKnown hypersensitivity to any component of the peptide formulation
xPregnancy and breastfeeding — no reproductive safety data available
xActive brain tumors or history of CNS malignancies — neurogenesis-promoting compounds may theoretically affect tumor growth
xChildren and adolescents — effects on developing brains not studied

Dihexa

Evidence Level

Strong human trials (Phase 3 or FDA approved)

FDA Status

Research compound

Safety Overview

Dihexa has demonstrated a favorable safety profile in published animal studies, with no reported tumorigenic effects or organ toxicity at cognitive-enhancing doses. However, the compound has not undergone formal human clinical trials, and long-term safety data does not exist. The primary theoretical safety concern is sustained activation of the HGF/c-Met proto-oncogenic pathway, which could theoretically promote tumor initiation or growth. The extremely long half-life (~12 days) raises additional concerns about compound accumulation with chronic daily dosing. Anecdotal reports from the nootropics community generally describe good tolerability at doses of 5-20 mg daily, with headaches and vivid dreams as the most commonly reported effects.

Contraindications

xKnown or suspected malignancy — c-Met/HGF pathway activation may promote tumor growth
xPregnancy and breastfeeding — no safety data available
xHistory of cancer, particularly HGF/c-Met-driven tumors (hepatocellular, gastric, lung)
xSevere hepatic impairment

Decision Guide

Which is
right for you?

Choose P21 (P021) if...

Supporting neurogenesis and brain cell renewal in age-related cognitive decline
Enhancing learning capacity and memory consolidation
Neuroprotection through BDNF upregulation and tau pathology reduction
Research into disease-modifying Alzheimer's disease therapies

Choose Dihexa if...

Cognitive enhancement and memory consolidation in age-related decline
Supporting neuroplasticity and new synaptic connection formation
Research into neurodegenerative disease therapeutics (Alzheimer's, Parkinson's)
Nootropic stacking for individuals seeking enhanced learning capacity

Full P21 (P021) Profile Full Dihexa Profile

Peptide Database

Quickcomparison

Benefitratings

Compoundspecifications

Dosingtiers

Bestsuited for

Sideeffects

Safety& evidence

Which isright for you?

Quick
comparison

Benefit
ratings

Compound
specifications

Dosing
tiers

Best
suited for

Side
effects

Safety
& evidence

Which is
right for you?